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549 lines
18 KiB
549 lines
18 KiB
package consensus
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import (
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"encoding/hex"
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"errors"
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"fmt"
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"math/big"
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"time"
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"github.com/ethereum/go-ethereum/common"
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protobuf "github.com/golang/protobuf/proto"
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"github.com/harmony-one/bls/ffi/go/bls"
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msg_pb "github.com/harmony-one/harmony/api/proto/message"
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"github.com/harmony-one/harmony/block"
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consensus_engine "github.com/harmony-one/harmony/consensus/engine"
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"github.com/harmony-one/harmony/consensus/quorum"
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"github.com/harmony-one/harmony/core/types"
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bls_cosi "github.com/harmony-one/harmony/crypto/bls"
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"github.com/harmony-one/harmony/crypto/hash"
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"github.com/harmony-one/harmony/internal/chain"
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"github.com/harmony-one/harmony/internal/ctxerror"
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"github.com/harmony-one/harmony/internal/profiler"
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"github.com/harmony-one/harmony/internal/utils"
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"github.com/harmony-one/harmony/p2p"
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"github.com/harmony-one/harmony/shard"
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"github.com/harmony-one/harmony/shard/committee"
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libp2p_peer "github.com/libp2p/go-libp2p-peer"
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"github.com/rs/zerolog"
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)
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// WaitForNewRandomness listens to the RndChannel to receive new VDF randomness.
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func (consensus *Consensus) WaitForNewRandomness() {
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go func() {
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for {
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vdfOutput := <-consensus.RndChannel
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consensus.pendingRnds = append(consensus.pendingRnds, vdfOutput)
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}
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}()
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}
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// GetNextRnd returns the oldest available randomness along with the hash of the block there randomness preimage is committed.
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func (consensus *Consensus) GetNextRnd() ([vdFAndProofSize]byte, [32]byte, error) {
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if len(consensus.pendingRnds) == 0 {
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return [vdFAndProofSize]byte{}, [32]byte{}, errors.New("No available randomness")
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}
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vdfOutput := consensus.pendingRnds[0]
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vdfBytes := [vdFAndProofSize]byte{}
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seed := [32]byte{}
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copy(vdfBytes[:], vdfOutput[:vdFAndProofSize])
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copy(seed[:], vdfOutput[vdFAndProofSize:])
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//pop the first vdfOutput from the list
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consensus.pendingRnds = consensus.pendingRnds[1:]
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return vdfBytes, seed, nil
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}
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// Populates the common basic fields for all consensus message.
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func (consensus *Consensus) populateMessageFields(request *msg_pb.ConsensusRequest) {
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request.ViewId = consensus.viewID
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request.BlockNum = consensus.blockNum
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request.ShardId = consensus.ShardID
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// 32 byte block hash
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request.BlockHash = consensus.blockHash[:]
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// sender address
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request.SenderPubkey = consensus.PubKey.Serialize()
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consensus.getLogger().Debug().
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Str("senderKey", consensus.PubKey.SerializeToHexStr()).
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Msg("[populateMessageFields]")
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}
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// Signs the consensus message and returns the marshaled message.
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func (consensus *Consensus) signAndMarshalConsensusMessage(message *msg_pb.Message) ([]byte, error) {
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err := consensus.signConsensusMessage(message)
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if err != nil {
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return []byte{}, err
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}
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marshaledMessage, err := protobuf.Marshal(message)
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if err != nil {
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return []byte{}, err
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}
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return marshaledMessage, nil
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}
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// GetNodeIDs returns Node IDs of all nodes in the same shard
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func (consensus *Consensus) GetNodeIDs() []libp2p_peer.ID {
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nodes := make([]libp2p_peer.ID, 0)
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nodes = append(nodes, consensus.host.GetID())
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consensus.validators.Range(func(k, v interface{}) bool {
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if peer, ok := v.(p2p.Peer); ok {
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nodes = append(nodes, peer.PeerID)
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return true
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}
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return false
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})
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return nodes
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}
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// GetViewID returns the consensus ID
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func (consensus *Consensus) GetViewID() uint64 {
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return consensus.viewID
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}
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// DebugPrintPublicKeys print all the PublicKeys in string format in Consensus
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func (consensus *Consensus) DebugPrintPublicKeys() {
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keys := consensus.Decider.DumpParticipants()
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utils.Logger().Debug().Strs("PublicKeys", keys).Int("count", len(keys)).Msgf("Debug Public Keys")
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}
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// UpdatePublicKeys updates the PublicKeys for quorum on current subcommittee, protected by a mutex
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func (consensus *Consensus) UpdatePublicKeys(pubKeys []*bls.PublicKey) int64 {
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consensus.pubKeyLock.Lock()
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consensus.Decider.UpdateParticipants(pubKeys)
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utils.Logger().Info().Msg("My Committee updated")
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for i := range pubKeys {
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utils.Logger().Info().Int("index", i).Str("BLSPubKey", pubKeys[i].SerializeToHexStr()).Msg("Member")
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}
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consensus.LeaderPubKey = pubKeys[0]
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utils.Logger().Info().
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Str("info", consensus.LeaderPubKey.SerializeToHexStr()).Msg("My Leader")
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consensus.pubKeyLock.Unlock()
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// reset states after update public keys
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consensus.ResetState()
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consensus.ResetViewChangeState()
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return consensus.Decider.ParticipantsCount()
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}
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// NewFaker returns a faker consensus.
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func NewFaker() *Consensus {
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return &Consensus{}
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}
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// Sign on the hash of the message
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func (consensus *Consensus) signMessage(message []byte) []byte {
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hash := hash.Keccak256(message)
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signature := consensus.priKey.SignHash(hash[:])
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return signature.Serialize()
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}
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// Sign on the consensus message signature field.
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func (consensus *Consensus) signConsensusMessage(message *msg_pb.Message) error {
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message.Signature = nil
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// TODO: use custom serialization method rather than protobuf
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marshaledMessage, err := protobuf.Marshal(message)
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if err != nil {
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return err
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}
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// 64 byte of signature on previous data
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signature := consensus.signMessage(marshaledMessage)
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message.Signature = signature
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return nil
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}
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// GetValidatorPeers returns list of validator peers.
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func (consensus *Consensus) GetValidatorPeers() []p2p.Peer {
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validatorPeers := make([]p2p.Peer, 0)
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consensus.validators.Range(func(k, v interface{}) bool {
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if peer, ok := v.(p2p.Peer); ok {
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validatorPeers = append(validatorPeers, peer)
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return true
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}
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return false
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})
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return validatorPeers
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}
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// GetBhpSigsArray returns the signatures for prepared message in viewchange
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func (consensus *Consensus) GetBhpSigsArray() []*bls.Sign {
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sigs := []*bls.Sign{}
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for _, sig := range consensus.bhpSigs {
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sigs = append(sigs, sig)
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}
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return sigs
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}
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// GetNilSigsArray returns the signatures for nil prepared message in viewchange
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func (consensus *Consensus) GetNilSigsArray() []*bls.Sign {
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sigs := []*bls.Sign{}
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for _, sig := range consensus.nilSigs {
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sigs = append(sigs, sig)
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}
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return sigs
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}
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// ResetState resets the state of the consensus
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func (consensus *Consensus) ResetState() {
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consensus.getLogger().Debug().
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Str("Phase", consensus.phase.String()).
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Msg("[ResetState] Resetting consensus state")
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consensus.switchPhase(FBFTAnnounce, true)
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consensus.blockHash = [32]byte{}
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consensus.blockHeader = []byte{}
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consensus.block = []byte{}
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consensus.Decider.Reset([]quorum.Phase{quorum.Prepare, quorum.Commit})
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members := consensus.Decider.Participants()
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prepareBitmap, _ := bls_cosi.NewMask(members, nil)
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commitBitmap, _ := bls_cosi.NewMask(members, nil)
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consensus.prepareBitmap = prepareBitmap
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consensus.commitBitmap = commitBitmap
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consensus.aggregatedPrepareSig = nil
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consensus.aggregatedCommitSig = nil
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}
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// Returns a string representation of this consensus
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func (consensus *Consensus) String() string {
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var duty string
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if consensus.IsLeader() {
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duty = "LDR" // leader
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} else {
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duty = "VLD" // validator
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}
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return fmt.Sprintf("[duty:%s, PubKey:%s, ShardID:%v]",
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duty, consensus.PubKey.SerializeToHexStr(), consensus.ShardID)
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}
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// ToggleConsensusCheck flip the flag of whether ignore viewID check during consensus process
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func (consensus *Consensus) ToggleConsensusCheck() {
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consensus.infoMutex.Lock()
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defer consensus.infoMutex.Unlock()
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consensus.ignoreViewIDCheck = !consensus.ignoreViewIDCheck
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}
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// IsValidatorInCommittee returns whether the given validator BLS address is part of my committee
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func (consensus *Consensus) IsValidatorInCommittee(pubKey *bls.PublicKey) bool {
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return consensus.Decider.IndexOf(pubKey) != -1
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}
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// Verify the signature of the message are valid from the signer's public key.
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func verifyMessageSig(signerPubKey *bls.PublicKey, message *msg_pb.Message) error {
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signature := message.Signature
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message.Signature = nil
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messageBytes, err := protobuf.Marshal(message)
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if err != nil {
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return err
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}
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msgSig := bls.Sign{}
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err = msgSig.Deserialize(signature)
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if err != nil {
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return err
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}
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msgHash := hash.Keccak256(messageBytes)
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if !msgSig.VerifyHash(signerPubKey, msgHash[:]) {
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return errors.New("failed to verify the signature")
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}
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message.Signature = signature
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return nil
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}
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// verifySenderKey verifys the message senderKey is properly signed and senderAddr is valid
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func (consensus *Consensus) verifySenderKey(msg *msg_pb.Message) (*bls.PublicKey, error) {
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consensusMsg := msg.GetConsensus()
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senderKey, err := bls_cosi.BytesToBlsPublicKey(consensusMsg.SenderPubkey)
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if err != nil {
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return nil, err
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}
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if !consensus.IsValidatorInCommittee(senderKey) {
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return nil, fmt.Errorf("Validator %s is not in committee", senderKey.SerializeToHexStr())
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}
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return senderKey, nil
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}
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func (consensus *Consensus) verifyViewChangeSenderKey(msg *msg_pb.Message) (*bls.PublicKey, error) {
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vcMsg := msg.GetViewchange()
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senderKey, err := bls_cosi.BytesToBlsPublicKey(vcMsg.SenderPubkey)
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if err != nil {
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return nil, err
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}
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if !consensus.IsValidatorInCommittee(senderKey) {
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return nil, fmt.Errorf("Validator %s is not in committee", senderKey.SerializeToHexStr())
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}
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return senderKey, nil
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}
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// SetViewID set the viewID to the height of the blockchain
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func (consensus *Consensus) SetViewID(height uint64) {
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consensus.viewID = height
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}
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// SetMode sets the mode of consensus
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func (consensus *Consensus) SetMode(m Mode) {
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consensus.current.SetMode(m)
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}
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// Mode returns the mode of consensus
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func (consensus *Consensus) Mode() Mode {
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return consensus.current.Mode()
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}
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// RegisterPRndChannel registers the channel for receiving randomness preimage from DRG protocol
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func (consensus *Consensus) RegisterPRndChannel(pRndChannel chan []byte) {
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consensus.PRndChannel = pRndChannel
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}
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// RegisterRndChannel registers the channel for receiving final randomness from DRG protocol
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func (consensus *Consensus) RegisterRndChannel(rndChannel chan [548]byte) {
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consensus.RndChannel = rndChannel
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}
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// Check viewID, caller's responsibility to hold lock when change ignoreViewIDCheck
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func (consensus *Consensus) checkViewID(msg *FBFTMessage) error {
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// just ignore consensus check for the first time when node join
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if consensus.ignoreViewIDCheck {
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//in syncing mode, node accepts incoming messages without viewID/leaderKey checking
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//so only set mode to normal when new node enters consensus and need checking viewID
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consensus.current.SetMode(Normal)
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consensus.viewID = msg.ViewID
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consensus.current.SetViewID(msg.ViewID)
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consensus.LeaderPubKey = msg.SenderPubkey
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consensus.ignoreViewIDCheck = false
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consensus.consensusTimeout[timeoutConsensus].Start()
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utils.Logger().Debug().
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Uint64("viewID", consensus.viewID).
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Str("leaderKey", consensus.LeaderPubKey.SerializeToHexStr()[:20]).
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Msg("viewID and leaderKey override")
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utils.Logger().Debug().
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Uint64("viewID", consensus.viewID).
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Uint64("block", consensus.blockNum).
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Msg("Start consensus timer")
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return nil
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} else if msg.ViewID > consensus.viewID {
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return consensus_engine.ErrViewIDNotMatch
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} else if msg.ViewID < consensus.viewID {
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return errors.New("view ID belongs to the past")
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}
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return nil
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}
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// SetBlockNum sets the blockNum in consensus object, called at node bootstrap
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func (consensus *Consensus) SetBlockNum(blockNum uint64) {
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consensus.infoMutex.Lock()
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defer consensus.infoMutex.Unlock()
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consensus.blockNum = blockNum
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}
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// SetEpochNum sets the epoch in consensus object
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func (consensus *Consensus) SetEpochNum(epoch uint64) {
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consensus.infoMutex.Lock()
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defer consensus.infoMutex.Unlock()
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consensus.epoch = epoch
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}
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// ReadSignatureBitmapPayload read the payload for signature and bitmap; offset is the beginning position of reading
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func (consensus *Consensus) ReadSignatureBitmapPayload(
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recvPayload []byte, offset int,
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) (*bls.Sign, *bls_cosi.Mask, error) {
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if offset+96 > len(recvPayload) {
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return nil, nil, errors.New("payload not have enough length")
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}
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sigAndBitmapPayload := recvPayload[offset:]
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return chain.ReadSignatureBitmapByPublicKeys(
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sigAndBitmapPayload, consensus.Decider.Participants(),
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)
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}
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func (consensus *Consensus) reportMetrics(block types.Block) {
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endTime := time.Now()
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timeElapsed := endTime.Sub(startTime)
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numOfTxs := len(block.Transactions())
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tps := float64(numOfTxs) / timeElapsed.Seconds()
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consensus.getLogger().Info().
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Int("numOfTXs", numOfTxs).
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Time("startTime", startTime).
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Time("endTime", endTime).
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Dur("timeElapsed", endTime.Sub(startTime)).
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Float64("TPS", tps).
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Msg("TPS Report")
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// Post metrics
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profiler := profiler.GetProfiler()
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if profiler.MetricsReportURL == "" {
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return
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}
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txHashes := []string{}
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for i, end := 0, len(block.Transactions()); i < 3 && i < end; i++ {
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txHash := block.Transactions()[end-1-i].Hash()
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txHashes = append(txHashes, hex.EncodeToString(txHash[:]))
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}
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metrics := map[string]interface{}{
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"key": hex.EncodeToString(consensus.PubKey.Serialize()),
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"tps": tps,
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"txCount": numOfTxs,
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"nodeCount": consensus.Decider.ParticipantsCount() + 1,
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"latestBlockHash": hex.EncodeToString(consensus.blockHash[:]),
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"latestTxHashes": txHashes,
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"blockLatency": int(timeElapsed / time.Millisecond),
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}
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profiler.LogMetrics(metrics)
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}
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// getLogger returns logger for consensus contexts added
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func (consensus *Consensus) getLogger() *zerolog.Logger {
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logger := utils.Logger().With().
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Uint64("myEpoch", consensus.epoch).
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Uint64("myBlock", consensus.blockNum).
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Uint64("myViewID", consensus.viewID).
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Interface("phase", consensus.phase).
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Str("mode", consensus.current.Mode().String()).
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Logger()
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return &logger
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}
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// retrieve corresponding blsPublicKey from Coinbase Address
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func (consensus *Consensus) getLeaderPubKeyFromCoinbase(header *block.Header) (*bls.PublicKey, error) {
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shardState, err := consensus.ChainReader.ReadShardState(header.Epoch())
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if err != nil {
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return nil, ctxerror.New("cannot read shard state",
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"epoch", header.Epoch(),
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"coinbaseAddr", header.Coinbase(),
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).WithCause(err)
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}
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committee := shardState.FindCommitteeByID(header.ShardID())
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if committee == nil {
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return nil, ctxerror.New("cannot find shard in the shard state",
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"blockNum", header.Number(),
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"shardID", header.ShardID(),
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"coinbaseAddr", header.Coinbase(),
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)
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}
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committerKey := new(bls.PublicKey)
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for _, member := range committee.NodeList {
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if member.EcdsaAddress == header.Coinbase() {
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err := member.BlsPublicKey.ToLibBLSPublicKey(committerKey)
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if err != nil {
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return nil, ctxerror.New("cannot convert BLS public key",
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"blsPublicKey", member.BlsPublicKey,
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"coinbaseAddr", header.Coinbase()).WithCause(err)
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}
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return committerKey, nil
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}
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}
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return nil, ctxerror.New("cannot find corresponding BLS Public Key", "coinbaseAddr", header.Coinbase())
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}
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// UpdateConsensusInformation will update shard information (epoch, publicKeys, blockNum, viewID)
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// based on the local blockchain. It is called in two cases for now:
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// 1. consensus object initialization. because of current dependency where chainreader is only available
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// after node is initialized; node is only available after consensus is initialized
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// we need call this function separately after create consensus object
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// 2. after state syncing is finished
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// It will return the mode:
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// (a) node not in committed: Listening mode
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// (b) node in committed but has any err during processing: Syncing mode
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// (c) node in committed and everything looks good: Normal mode
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func (consensus *Consensus) UpdateConsensusInformation() Mode {
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pubKeys := []*bls.PublicKey{}
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hasError := false
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header := consensus.ChainReader.CurrentHeader()
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epoch := header.Epoch()
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_, curPubKeys := committee.WithStakingEnabled.ComputePublicKeys(
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epoch, consensus.ChainReader, int(header.ShardID()),
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)
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consensus.numPrevPubKeys = len(curPubKeys)
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consensus.getLogger().Info().Msg("[UpdateConsensusInformation] Updating.....")
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if shard.Schedule.IsLastBlock(header.Number().Uint64()) {
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// increase epoch by one if it's the last block
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consensus.SetEpochNum(epoch.Uint64() + 1)
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consensus.getLogger().Info().Uint64("headerNum", header.Number().Uint64()).
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Msg("[UpdateConsensusInformation] Epoch updated for next epoch")
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_, pubKeys = committee.WithStakingEnabled.ComputePublicKeys(
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new(big.Int).Add(epoch, common.Big1), consensus.ChainReader, int(header.ShardID()),
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)
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} else {
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consensus.SetEpochNum(epoch.Uint64())
|
|
pubKeys = curPubKeys
|
|
}
|
|
|
|
if len(pubKeys) == 0 {
|
|
consensus.getLogger().Warn().
|
|
Msg("[UpdateConsensusInformation] PublicKeys is Nil")
|
|
hasError = true
|
|
}
|
|
|
|
// update public keys committee
|
|
oldLeader := consensus.LeaderPubKey
|
|
consensus.getLogger().Info().
|
|
Int("numPubKeys", len(pubKeys)).
|
|
Msg("[UpdateConsensusInformation] Successfully updated public keys")
|
|
consensus.UpdatePublicKeys(pubKeys)
|
|
|
|
// take care of possible leader change during the epoch
|
|
if !shard.Schedule.IsLastBlock(header.Number().Uint64()) &&
|
|
header.Number().Uint64() != 0 {
|
|
leaderPubKey, err := consensus.getLeaderPubKeyFromCoinbase(header)
|
|
if err != nil || leaderPubKey == nil {
|
|
consensus.getLogger().Debug().Err(err).
|
|
Msg("[SYNC] Unable to get leaderPubKey from coinbase")
|
|
consensus.ignoreViewIDCheck = true
|
|
hasError = true
|
|
} else {
|
|
consensus.getLogger().Debug().
|
|
Str("leaderPubKey", leaderPubKey.SerializeToHexStr()).
|
|
Msg("[SYNC] Most Recent LeaderPubKey Updated Based on BlockChain")
|
|
consensus.LeaderPubKey = leaderPubKey
|
|
}
|
|
}
|
|
|
|
for i := range pubKeys {
|
|
// in committee
|
|
if pubKeys[i].IsEqual(consensus.PubKey) {
|
|
if hasError {
|
|
return Syncing
|
|
}
|
|
|
|
// If the leader changed and I myself become the leader
|
|
if !consensus.LeaderPubKey.IsEqual(oldLeader) && consensus.LeaderPubKey.IsEqual(consensus.PubKey) {
|
|
go func() {
|
|
utils.Logger().Debug().
|
|
Str("myKey", consensus.PubKey.SerializeToHexStr()).
|
|
Uint64("viewID", consensus.viewID).
|
|
Uint64("block", consensus.blockNum).
|
|
Msg("[onEpochChange] I am the New Leader")
|
|
consensus.ReadySignal <- struct{}{}
|
|
}()
|
|
}
|
|
return Normal
|
|
}
|
|
}
|
|
// not in committee
|
|
return Listening
|
|
}
|
|
|
|
// IsLeader check if the node is a leader or not by comparing the public key of
|
|
// the node with the leader public key
|
|
func (consensus *Consensus) IsLeader() bool {
|
|
if consensus.PubKey != nil && consensus.LeaderPubKey != nil {
|
|
return consensus.PubKey.IsEqual(consensus.LeaderPubKey)
|
|
}
|
|
return false
|
|
}
|
|
|
|
// NeedsRandomNumberGeneration returns true if the current epoch needs random number generation
|
|
func (consensus *Consensus) NeedsRandomNumberGeneration(epoch *big.Int) bool {
|
|
if consensus.ShardID == 0 && epoch.Uint64() >= shard.Schedule.RandomnessStartingEpoch() {
|
|
return true
|
|
}
|
|
|
|
return false
|
|
}
|
|
|